References
- Althoff, K. and Hennig, E.M., 2012. What female and male soccer players expect from their shoes. In: 3rd World Conference on Science and Soccer. Ghent, Belgium: Victoris & Gent BC, pp. 82.
- Chen, H., Nigg, B.M., and de Koning, J., 1994. Relationship between plantar pressure distribution under the foot and insole comfort. Clinical Biomechanics, 9 (6), 335–341.
- Eils, E., 2004. Characteristic plantar pressure distribution patterns during soccer-specific movements. American Journal of Sports Medicine, 32, 140–145.
- Hagen, M., et al., 2010. Effects of different shoe-lacing patterns on dorsal pressure distribution during running and perceived comfort. Research in Sports Medicine, 18 (3), 176–187.
- Hennig, E.M., 2006. Biomechanische Methoden zur Evaluation und Optimierung von Fußballschuhen. Orthopädie Schuhtechnik, 2006 (6), 20–24.
- Hennig, E.M., Althoff, K., and Hoemme, A.-K., 2009. Soccer footwear and ball kicking accuracy. Footwear Science, 1 (Suppl. 1), 85–87.
- Hennig, E.M., et al., 1982. A piezoelectric method of measuring the vertical contact stress beneath the human foot. Journal of Biomedical Engineering, 4 (3), 213–222.
- Hennig, E.M., et al., 2012. The influence of soccer shoe construction on player performance – a comparison of perceived against measured speed performance. In: 3rd World Conference on Science and Soccer. Ghent, Belgium: Victoris & Gent BC, pp. 92.
- Hennig, E.M. and Lafortune, M.A., 1998. Technology and application of force, acceleration and pressure distribution measurements in biomechanics. In: P. Allard, et al., eds. Three-dimensional analysis of human locomotion. New York: J. Wiley & Sons, 109–127.
- Hinz, P., et al., 2008. Analysis of pressure distribution below the metatarsals with different insoles in combat boots of the German Army for prevention of march fractures. Gait and Posture, 27, 535–538.
- Hong, W.-H., et al., 2005. Influence of heel height and shoe insert on comfort perception and biomechanical performance of young female adults during walking. Foot and Ankle International, American Orthopaedic Foot and Ankle Society, and Swiss Foot and Ankle Society, 26, 1042–1048.
- Jordan, C., Payton, C., and Bartlett, R., 1997. Perceived comfort and pressure distribution in casual footwear. Clinical Biomechanics (Bristol, Avon), 12, S5–S5.
- Milani, T.L., Hennig, E.M., and Lafortune, M.A., 1997. Perceptual and biomechanical variables for running in identical shoe constructions with varying midsole hardness. Clinical Biomechanics (Bristol, Avon), 12 (5), 294–300.
- Nihal, A., Trepman, E., and Nag, D., 2009. First ray disorders in athletes. Sports Medicine and Arthroscopy Review, 17 (3), 160–166.
- Shuen, W.M.V., et al., 2009. Metatarsal fractures and sports. The Surgeon Journal of the Royal Colleges of Surgeons of Edinburgh and Ireland, 7, 86–88.
- Sims, E.L., Hardaker, W.M., and Queen, R.M., 2008. Gender differences in plantar loading during three soccer-specific tasks. British Journal of Sports Medicine, 42, 272–277.
- Sterzing, T., et al., 2009. Actual and perceived running performance in soccer shoes: A series of eight studies. Footwear Science, 1 (1), 5–17.
- Sterzing, T., et al., 2011. Shoe influence on actual and perceived ball handling performance in soccer. Footwear Science, 3 (2), 97–105.
- Wong, P.Ä., et al., 2007. Higher plantar pressure on the medial side in four soccer related movements. British Journal of Sports Medicine, 41, 93–100.